-
The present invention relates to a programmable electronic messaging
system, and more particularly to an internet based messaging server
programmable to divert an incoming e-mail message to one of a plurality of
different electronic delivery mechanisms based upon messaging tasks as
defined for a prescribed time period.
-
As e-mail messaging technology continues to evolve and advance, it is
becoming increasingly a more prevalent form of communication. As more and
more individuals rely on e-mail as their principle form of communication, it is
increasingly becoming important that it's accessibility also continues to
evolve.
-
In the past, e-mail messages were typically transmitted from one
computer terminal to another, in which the e-mail message is transmitted from
the sender to a recipient, and after being transmitted from the sender, it would
typically reside in a messaging server (the e-mail account for the recipient)
until such a time as the recipient would access the server to retrieve the
recipient's e-mail messages residing in the server. With continuing
advancements in communication technology, now not only PC terminals can
transmit e-mail messages, but almost any device capable of transmitting
electronic data can now both send and retrieve e-mail messages (e.g., cellular
telephones, hand-held computer devices having wireless communication
capabilities, etc.)
-
However, eventhough e-mail messages can now be both more easily
be sent and retrieved, there are still many instances when an e-mail recipient
is not capable of retrieving an e-mail formatted message (e.g., the recipient
does not readily have access to an e-mail receiving device). Thus, there still
remains a need to improve and expand e-mail accessibility as well as
efficiency.
-
Accordingly, the present invention relates to a method for re-transmitting
an e-mail message transmitted from a sender to a recipient based
upon time criteria and preferably other predetermined criteria to enable a
recipient to retrieve e-mail messages based upon time criteria for
conventionally enabling the recipient to retrieve e-mail messages.
-
The method includes the steps of defining at least two different sets of
criteria to be satisfied in the address block of the e-mail message for initiating
messaging tasks wherein each set of criteria has unique associated
messaging tasks and prescribing at least one time period for performing time
based messaging tasks. A determination is then made for determining if the
e-mail message was received within the at least one time period. The e-mail
message is re-transmitted in accordance with the defined messaging tasks for
the prescribed time period if the e-mail message was determined to be
received within the prescribed time period.
-
Further, the address block of the e-mail message is interrogated to
determine if predetermined criteria from at least one of two different sets of
criteria has been met in the sender addressing information portion of the e-mail
message. And re-transmitting the e-mail message to the recipient such
that the recipient receives at least the messaging information content of the e-mail
message at a location other than the recipients intended e-mail account
in accordance with the messaging tasks associated with one of the two
different sets of criteria that has be met in the sender addressing information
portion of the e-mail message.
-
The above and other objects and advantages of the present invention
will become more readily apparent upon consideration of the following
detailed description, taken in conjunction with the accompanying drawings, in
which like reference characters refer to like parts throughout the drawings and
in which:
- Fig. 1 is a system level block diagram depicting the messaging server
embodying the present invention;
- Fig. 2 is a flow chart depicting the steps taken by messaging server of
Fig. 1 for determining if messaging tasks have been enabled;
- Fig. 2a is a flow chart depicting the steps taken for initiating prescribed
priority messaging tasks;
- Figs. 3-6 are flow charts depicting the steps taken by the messaging
server of Fig. 1 for initiating prescribed global messaging tasks;
- Fig. 7 is a block diagram depicting the prescribed priority and global
messaging parameters;
- Fig. 8 is a flow chart depicting the steps taken to program priority
messaging tasks for prescribed time periods;
- Fig. 9 is a flow chart depicting the steps taken by the messaging server
of Fig. 1 for initiating prescribed time period messaging tasks; and
- Fig. 10 is a block diagram depicting the prescribed time period
messaging parameters.
-
-
With reference to Fig. 1, there is shown in block diagram a messaging
system, designated generally at 10, embodying the present invention.
Messaging system 10 includes preferably an internet based messaging server
12 having a programmable message processor 14 for initiating the pre-programmed
priority and global messaging tasks for subscribing recipients,
and for initiating pre-programmed time-based messaging tasks for prescribed
time periods. For clarity of illustration, system 10 is shown to include only one
PC-based message sender 16, but it is of course to be appreciated that
system 10, and more specifically the messaging server 12, is intended to be
coupled to a virtual infinite amount of message senders 16, wherein a
message sender 16 can be defined as any type of device capable of
transmitting an e-mail message to the message server 16, preferably via the
internet.
-
Message server 12 preferably includes a message processor 14 that
initiates the below discussed messaging tasks as prescribed by a subscriber.
More particularly, message server 12 is preferably an internet based server
having a plurality of subscribers, wherein each subscriber is assigned a
unique e-mail address, as is well known. For instance, a first subscriber can
be assigned the address: nicholls@pb.com, while a second subscriber can be
assigned the address: allport@pb.com. As is conventional, the first portion of
the exemplary e-mail addresses (i.e., nicholls and allport) are termed user
identifications, which is typically chosen by the subscriber. The second
portion of the exemplary e-mail addresses (i.e., pb.com) are termed the
domain names which is typically fixed for all subscribers on a common
message server 12. Without going into elaborate detail, it is this domain
name (i.e., pb.com) that is utilized by Domain Name Servers (DNS) on the
internet so as to obtain a numerical TCP/IP address, which TCP/IP address is
the location in which the messaging server 12 resides on the internet as
translated by internet-based Domain Name Servers. As is still conventional,
when a sender transmits an e-mail message to an e-mail address (e.g.,
nicholls@pb.com) ,that e-mail message is transmitted to and typically
maintained within the message server 12 having the matching domain name
(pb.com) in a folder or database dedicated to that subscriber recipient (e.g.,
nicholls). The recipient subscriber, when appropriately logged onto to the
message server 12, is then enabled to retrieve the messages delivered to
him. Thus, what is described above is well known to all internet-based e-mail
message servers.
-
Described below is the message server 12 in accordance with the
present invention which is configured to not only conventionally deliver an e-mail
message to a subscriber, but also convert that e-mail message to
another chosen format (e.g., facsimile, pager or telephony) and deliver the
message in that format based upon predefined criteria chosen by the
subscriber. As will be discussed further below, message processor 14 is
programmable by the subscriber so as to implement defined messaging tasks
in a prescribed time period for a prescribed time period.
-
For ease of description, a discussion regarding the programming of
processor 14 for performing messaging tasks is first given (Figs. 2-7), which is
then followed by a discussion for prescribing time periods (Fig. 8) for time
period messaging tasks wherein each prescribed time period has unique
priority messaging tasks relative to other prescribed time periods.
-
As stated above, messaging server 12 includes a programmable
message processor 14, which can be programmable in a number of ways.
Preferably, processor 14 is programmed by a subscriber via the internet,
wherein the subscriber logs onto an internet page and through access to the
subscribers account file (which of course is preferably password protected),
the subscriber inputs the predefined criteria into his account file (Figs. 7 and
10). The content of this predefined criteria will be readily apparent from the
below described operation of messaging server 12. Of course messaging
server 12 is not to be understood to be limited to using the internet for its
programming, but rather it may be programmed via telephony, facsimile or
any other known means for inputting data into a processor.
-
Message processor 14 is preferably coupled to: a facsimile sub-system
18, a pager sub-system 20, a telephony sub-system 22 and an e-mail sub-system
24, each of which will be discussed in turn below.
-
Facsimile sub-system 18 is operational to receive an e-mail message
transmitted from a sender 16 to the subscriber recipient and convert and
transmit the content of the e-mail message to a predetermined facsimile
location 26. Facsimile sub-system 18 includes a converter 28 for converting
at least the content of the e-mail message from preferably either HTML or
ASCII text to a facsimile format such as "group 3." Further included is
preferably a facsimile database 30 coupled to the converter 28 for storing the
converted facsimile messages. A facsimile server 32 is coupled to the
database 30 and is operational to transmit facsimile messages to a
predetermined facsimile location 26. A more detailed explanation of the
operation of the facsimile sub-system 18 will be given below in conjunction
with the operation of the messaging server 12.
-
Similarly, both the pager sub-system 20 and telephony sub-system 22
are operational to receive an e-mail message transmitted from a sender 16 to
the subscriber recipient and convert and transmit the content of the e-mail
message to a predetermined mobile pager location 34 or a telephony location
36, respectively. Regarding the pager sub-system 20, it includes a converter
38 for converting at least the content of the e-mail message from preferably
either HTML or ASCII text to a pager format such as alpha-numeric
characters or ASCII text. Further included is preferably a pager database 40
coupled to the converter 38 for storing converted pager messages. A pager
server 42 is coupled to the database 40 and is operational to transmit
facsimile messages to a predetermined mobile pager 34.
-
In regards to the telephony sub-system 22, it similarly includes a
converter 44 for converting at least the content of the e-mail message from
preferably either HTML or ASCII text to a audio voice message format using
preferably known voice recognition techniques. Further included is preferably
an audio database 46 coupled to the converter 44 for storing the converted
audio voice messages. A telephony server 48 is coupled to the database 46
and is operational to transmit audio voice messages to a predetermined
telephony location 36. A more detailed explanation of the operation of both
the pager and telephony sub-systems 20 and 22 will also be given below in
conjunction with the operation of the messaging server 12.
-
With regards to the e-mail sub-system 24, it is operational to receive an
e-mail message transmitted from a sender 16 to the subscriber recipients e-mail
address that is associated with the messaging server 12 (e.g.,
nicholls@pb.com) and retransmit that message to another predetermined e-mail
address (e.g., nicholls@home.com). E-mail sub-system 24 includes an
e-mail database 50 for storing the newly addressed-mail messages and is
coupled to an e-mail server for transmitting the newly addressed e-mail
messages to predetermined e-mail address locations 54. It is to be
appreciated that each predetermined e-mail address location 54 includes a
device capable or receiving an e-mail message, such as a PC, cellular
telephone or hand-held PC-type device.
-
With the components of the messaging server 12 being described
above, it's preferred method of operation will now be discussed. With
reference to Fig. 2, and with continued reference to Fig. 1, a sender transmits
an e-mail message from the senders location 16 (step 200) to the recipients
e-mail address residing in the messaging server 12 (step 202). A
determination is then made in the message processor 14 as to whether the
recipient has enabled any "messaging tasks" (step 204). As will become
apparent below, messaging tasks are defined as converting and/or re-transmitting
the E-mail message based upon the subscribers criteria as pre-programmed
in the processor 14. If none are enabled, the e-mail message is
deposited in an e-mail database 50 corresponding with the e-mail address the
message was addressed to (e.g., nicholls@pb.com) (step 206).
-
If any messaging tasks are enabled, a determination is first made as to
whether the recipient has enabled any "time period messaging tasks" for a
prescribed time period (step 207) in association with the received e-mail
message. Time period messaging tasks are defined as the immediate
performance of a chosen messaging task when an e-mail message is
received within a prescribed time period. For ease of description, a
discussion regarding the time period messaging tasks will be provided further
below.
-
If no time period messaging tasks have been enabled (as will be
discussed further below) or if enabled, initiation of a time period messaging
task has not disabled the preprogrammed priority and global messaging tasks
(as will also be discussed further below), a determination is then made as to
whether the recipient has enabled any "Priority Features" (step 208) in
association with the received e-mail message. Priority features are defined as
the immediate performance of a chosen enhancement feature when an e-mail
message is received from a predetermined sender. For example, a
subscriber may program the processor 14 to perform a specific task for all e-mail
messages having "Allport" appearing in the user identification (e.g.
Allport@work.com). Alternatively, a subscriber may program the processor
14 to perform a specific task for all e-mail messages being sent from the
domain name "PBltd" (e.g., scottbr@PBltd.com). If priority has not been
chosen for the received e-mail message, then it is processed in accordance
with the chosen global messaging tasks as described in reference to Fig. 3
(subroutine "A").
-
If it is determined that priority has been chosen for the received e-mail
message, the determination and performance of the chosen priority
messaging task(s) are then initiated as discussed with reference to subroutine
"P" of Fig. 2a. Preferably, a determination is first made as to whether a pager
feature has been enabled (step 210). If no, the facsimile determination is then
made (step 218). If the pager feature has been enabled, then at least the
message content of the e-mail message is converted to a pager format by the
converter 38 (step 212) in the pager sub-system 20. And that pager message
is then transmitted to a predetermined pager 34 (preferably in dependence
upon a selected telephone number that corresponds to a chosen pager), via
pager server 42 (step 214).
-
If the pager priority task was not enabled for the received e-mail
message (step 210), or after initiation of the pager priority messaging tasks
(steps 212 and 214), a determination is then made as whether the facsimile
priority messaging tasks has been enabled for the received e-mail message
(step 218). If no, the telephony determination is then made (step 226). If the
facsimile priority messaging task has been enabled, then at least the
message content of the e-mail message is converted to a facsimile format by
the converter 28 (step 220) in the facsimile sub-system 18. And that facsimile
message is then transmitted to a predetermined facsimile device 26
(preferably in dependence upon a selected telephone number that
corresponds to a chosen facsimile device), via facsimile server 32 (step 222).
-
If the facsimile priority messaging task was not enabled for the
received e-mail message (step 218), or after initiation of the facsimile priority
messaging tasks (steps 220 and 222), a determination is then made as
whether the telephony priority messaging tasks has been enabled for the
received e-mail message (step 226). If yes, then at least the message
content of the e-mail message is converted to an audio format by the voice
recognition converter 44 (step 228) in the telephony sub-system 22. And that
audio message is then transmitted to a predetermined telephone location 36
(preferably in dependence upon a selected telephone number that
corresponds to a chosen device having the capability to broadcast the audio
message such as a conventional telephone or properly configured PC), via
telephony server 48 (step 230). A determination is then made as to whether
the e-mail priority messaging task has also been chosen for the received
e-mail message (step 232).
-
If the telephony priority messaging task was not enabled for the
received e-mail message (step 226) and/or the e-mail priority messaging task
has additionally been chosen for the received e-mail message (232), then at
least the messaging content of the received e-mail message is re-transmitted
to another e-mail address as determined by the subscriber (step 234). The
above priority feature then terminates in regards to the present received
e-mail, and is again initiated upon receipt of another e-mail message if the
predetermined priority criteria has been satisfied. In regards to the present e-mail
message, it is then processed in accordance with the pre-programmed
global messaging tasks as discussed in reference to subroutine "A" of Fig. 3.
It is to be appreciated that if the above-described priority feature is initiated for
another received e-mail message, the priority messaging parameters need
not be the same, as will be discussed further below.
-
For example, and with reference to Fig. 7, a subscriber (i.e.,
nicholls@pb.com) can program the processor 400, in regards to the aforesaid
priority messaging parameters (block 702) differently for messages received
having the user identification name "allport" compared to messages received
having the domain name "pbltd." Thus, if a message is sent to the subscriber
(i.e., nicholls@pb.com) from allport@home.com then the message portion of
the received e-mail may be faxed to the subscribers home facsimile machine
(e.g., 111-222-3333) and retransmitted to the subscribers home address (i.e.,
nicholls@home.com) (block 706). In comparison, if a message is sent to the
subscriber (i.e., nicholls@pb.com) from scottbr@pbltd.com then the message
portion of the received e-mail may be faxed to the subscribers work facsimile
machine (e.g., 222-333-4444) and transmitted to the subscribers pager (e.g.,
444-555-6666) as well as the subscribers home telephone number (e.g., 777-888-9999)
(block 708). In the event that an e-mail message is received from
a sender meeting two different preprogrammed criteria allport@pbltd.com,
each having their own priority messaging parameters, then the priority
messaging task of Fig. 2 defaults to the parameters that correspond to the
user identification (block 706). And of course if the sender information
associated with a received e-mail message meets none of the aforementioned
preprogrammed priority criteria (e.g., house@work .com) then that e-mail
message is then sent to the global messaging tasks program (step 208), as
explained below with reference to subroutine "A" of Fig. 3. It is thus to be
appreciated that a plurality of different priority criteria can be preprogrammed
into processor 14, each having unique messaging parameters.
-
If the received e-mail message does not satisfy any of the programmed
priority messaging parameters, or the priority feature has not been enabled
(step 208), the received e-mail message is then processed in accordance with
the global messaging tasks as shown in subroutine "A" of Fig. 3. Like the
above-described priority messaging tasks, the global messaging tasks are
operational to also convert and/or re-transmit the received e-mail message to
another location(s), other then the intended location. But unlike the priority
messaging tasks of Fig. 2a, the global messaging tasks do not distinguish
between received e-mail messages for determining what preprogrammed
messaging tasks are to be initiated. For instance, if the facsimile feature has
been enabled, then all received e-mail messages are transmitted to a
common facsimile location.
-
With reference to Fig. 3, processor 14 (Fig. 1) first determines if the
received e-mail message is to be transmitted to another e-mail address (step
300). If yes, then at least the messaging content of the received e-mail
message is re-transmitted to another e-mail address , via e-mail server 52, as
determined by the subscriber (step 302) and as pre-preprogrammed in
accordance with the global messaging tasks. A determination is then made
as to whether the global facsimile feature has been enabled (step 306).
-
If the e-mail global feature is not enabled (step 300) or after the e-mail
feature has been initiated (step 302), a determination is then made as to
whether the global facsimile feature has been enabled (step 306). If yes, and
with reference to subroutine "B" of Fig. 4, the e-mail message is then
converted to a facsimile format, via facsimile converter 28 (step 400). A
determination is then made as to whether the facsimile accumulation feature
has been enabled (step 402). If no, then the facsimile formatted message is
transmitted to a predetermined facsimile location as pre-programmed by the
subscriber, via facsimile server 32 (step 404).
-
If the facsimile accumulation feature has been enabled (step 402) then
a facsimile counter is increased by one increment (step 406), preferably in
processor 14, and a determination is then made as to whether the present
facsimile counter equals a predefined facsimile counter number (step 408).
This facsimile counter number is predefined by the subscriber and
corresponds to the number of facsimile formatted messages that must be
collected before they are all successively transmitted to the predetermined
facsimile location 26. If the present facsimile counter number equals the
predefined facsimile counter number, then all the facsimile formatted
messages stored in the facsimile database 30 are transmitted to a
predetermined facsimile location 26 as pre-programmed by the subscriber, via
facsimile server 32 (step 410). The present facsimile counter is then reset to
zero and all facsimile formatted messages contained in the facsimile database
30 are preferably deleted (step 412). If the present facsimile counter number
does not equals the predefined facsimile counter number (step 408), then the
facsimile formatted message is stored in the facsimile database 30 (step 414)
and these stored messages are not transmitted until the number of stored
messages equals the predefined facsimile counter number.
-
Returning reference to Fig. 3, if the facsimile global messaging task
was not enabled (step 306) or after the facsimile messaging task has been
initiated (subroutine "B"), a determination is then made as to whether the
global pager messaging task has been enabled (step 308). If yes, and with
reference to subroutine "C" of Fig. 5, the e-mail message is then converted to
a pager format, via pager converter 38 (step 500). A determination is then
made as to whether the pager accumulation feature has been enabled (step
502). If no, then the page formatted message is transmitted to a
predetermined pager 34 as pre-programmed by the subscriber, via pager
server 42 (step 504).
-
If the pager accumulation feature has been enabled (step 502) then a
pager counter is increased by one increment (step 506), preferably in
processor 14, and a determination is then made as to whether the present
pager counter equals a predefined pager counter number (step 508). This
pager counter number is predefined by the subscriber and corresponds to the
number of pager formatted messages that must be collected before they are
all successively transmitted to the predetermined pager. If the present pager
counter number equals the predefined pager counter number, then all the
pager formatted messages stored in the pager database 40 are transmitted to
a predetermined pager 34 as pre-programmed by the subscriber, via pager
server 42 (step 510). The present pager counter is then reset to zero and all
pager formatted messages contained in the pager database 40 are preferably
deleted (step 512). If the present pager counter number does not equal the
predefined pager counter number (step 508), then the pager formatted
message is stored in the pager database 40 (step 514) and these stored
messages are not transmitted until the number of stored messages equals the
predefined pager counter number.
-
Again with returning reference to Fig. 3, if the global pager messaging
task was not enabled (step 308) or after the global pager messaging task has
been initiated (subroutine "C"), a determination is then made as to whether
the global telephony messaging task has been enabled (step 310). If yes,
and with reference to subroutine "D" of Fig. 6, the e-mail message is then
converted to a telephony format, via telephony converter 44 (step 600). A
determination is then made as to whether the telephony accumulation feature
has been enabled (step 602). If no, then the telephony formatted message is
transmitted to a predetermined telephone location 36 as pre-programmed by
the subscriber, via telephony server 48 (step 604).
-
If the telephony accumulation feature has been enabled (step 602)
then a telephony counter is increased by one increment (step 606), preferably
in processor 14, and a determination is then made as to whether the present
telephony counter equals a predefined telephony counter number (step 608).
This telephony counter number is predefined by the subscriber and
corresponds to the number of telephony formatted messages that must be
collected before they are all successively transmitted to the predetermined
telephone location 36. If the present telephony counter number equals the
predefined telephony counter number, then all the telephony formatted
messages stored in the telephony database 46 are transmitted to a
predetermined telephone as pre-programmed in accordance with the global
enhancement features, via telephony server 48 (step 610). The present
telephony counter is then reset to zero and all telephony formatted messages
contained in the telephony database 46 are preferably deleted (step 612). If
the present telephony counter number does not equal the predefined
telephony counter number (step 608), then the telephony formatted message
is stored in the telephony database 46 (step 614) and these stored messages
are not transmitted until the number of stored messages equals the
predefined telephony counter number.
-
It is to be appreciated that the preprogrammed messaging parameters
for the aforesaid global messaging tasks can be either the same or different
than those for the priority messaging tasks as discussed above with reference
to Fig. 2a. To illustrate this, reference is again made to Fig. 7, which depicts
the preprogrammed messaging parameters, as chosen by a subscriber and
retained in the
processor 14 of the
messaging server 12. In continuance of
the exemplary scenario described above with reference to the priority
messaging parameters (block 702), discussion will now be given in regards to
the preprogrammed global enhancements messaging parameters (block 704).
With the priority messaging parameters remaining the same as shown in Fig.
7 and discussed above (block 702), a subscriber can program the
processor
14 with the following global enhancements messaging parameters (block
704):
- (1) all received e-mail messages are to be faxed to the
subscribers summer home facsimile number (i.e., 123-456-7890)
after three messages have accumulated in the
facsimile database 30;
- (2) all received e-mail messages are to be telephoned in
audio format to the subscribers summer home facsimile
number (i.e., 987-654-3210) after two messages have
accumulated in the telephony database 30; and
- (3) all received e-mail messages are to be e-mailed to the
subscribers summer home e-mail address (i.e.,
Nicholls@shouse.com).
For instance, if an e-mail message is received from Allport@work.com, then
the messaging parameters of priority messaging routine of block 706 are
performed in addition to those of the aforesaid global messaging routine,
block 704. Alternatively, if an e-mail message is received from
scoffsu@pbltd.com the messaging parameters of priority messaging routine of
block 708 are performed in addition to those of the aforesaid global
messaging routine, block 704. And further, if an e-mail message is received
from Cookgr@play.com then no priority messaging steps are taken (since the
received message does not satisfied any of the preprogrammed criteria (block
702), but the global messaging features of the preprogrammed global
messaging routine (block 704) are nevertheless performed (since there is no
criteria to satisfy).-
-
With the messaging operations for performing the predefined priority
and global messaging tasks being described above (Figs. 2-7), discussion will
now turn toward performing predefined time period messaging tasks if it is
determined that the time period messaging tasks have been enabled (step
207, Fig. 2). As will be appreciated from the below discussion, messaging
server 12 is preferably configured to enable a subscriber to define prescribed
time periods, wherein each prescribed time period has unique priority
messaging tasks associated with it.
-
With reference to Fig. 8, the steps taken for programming the
messaging server to perform time period messaging tasks will now be
discussed. The subscriber inputs the starting time defining the first time
period (step 804) (e.g., 8:00 a.m., 12 December 1998) as well as the ending
time (step 806) for the first time period (e.g., 5:00 pm, 12 December 1998).
The priority messaging tasks for that time period are then programmed into
processor 14 (810) and initiation thereof will be discussed further below in
reference to subroutine "T" of Fig. 9. It is to be understood that steps for
prescribing these priority messaging tasks are to be the same as was
performed in regards to the priority and global messaging tasks as discussed
above in reference to Figs. 2-6. A determination is then made as to whether
another prescribed time period is to be defined (step 812). If yes, then the
subscriber inputs the starting time defining a second time period (step 804)
(e.g., 3:00 pm, 26 December 1998) as well as the ending time (step 806) for
the first time period (e.g., 11:00 a.m., 31 December 1998). The priority
messaging tasks for that time period are then prescribed (step 810) which
priority messaging tasks are unique relative to those prescribed for the first
time period.
-
In operation and with reference to Figs. 2 and 9, when an e-mail
message is received in the messaging server 12 from a sender (step 202) and
it has been determined that e-mail messaging tasks have been enabled in the
messaging server 12 (step 204), a determination is then made as to whether
a time period messaging task has been enabled for the time period the e-mail
message was received (e.g., 9:00 a.m., 12 December 1998) (step 207). If
yes, then the time period messaging tasks of subroutine "T" of Fig. 9 are
initiated.
-
With reference to Fig. 9, preferably a determination is first made as to
whether a pager messaging task has been enabled (step 910). If no, the
facsimile determination is then made (step 918). If the pager messaging task
has been enabled, then at least the message content of the e-mail message
is converted to a pager format by the converter 38 (step 912) in the pager
sub-system 20. And that pager message is then transmitted to a
predetermined pager 34 as pre-programmed by the subscriber, via pager
server 42 (step 914).
-
If the pager time period messaging task was not enabled (step 910), or
after initiation of the pager time period messaging tasks (steps 912 and 914),
a determination is then made as whether the facsimile time period messaging
task has been enabled (step 918). If no, the telephony determination is then
made (step 926).
-
If the facsimile messaging task has been enabled, then at least the
message content of the e-mail message is converted to a facsimile format by
the converter 28 (step 920) in the facsimile sub-system 18. And that facsimile
message is then transmitted to a predetermined facsimile device 26, via
facsimile server 32 (step 922).
-
If the facsimile time period messaging task was not enabled (step 918),
or after initiation of the facsimile time period messaging tasks (steps 920 and
922), a determination is then made as whether the telephony time period
messaging tasks has been enabled (step 926). If yes, then at least the
message content of the e-mail message is converted to an audio format by
the voice recognition converter 44 (step 928) in the telephony sub-system
22.
And that audio message is then transmitted to a predetermined telephone
location 36.
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If the telephony time period messaging task (step 926) was not
enabled, or after initiation of the telephony time period messaging tasks (steps
928 and 930) a determination is then made as to whether an e-mail time
period messaging tasks has also been enabled (step 932). If yes, then at
least the messaging content of the received e-mail message is re-transmitted
to another e-mail address as prescribed in the time period messaging tasks
for the present initiated time period, via e-mail server 52 (step 934).
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If the e-mail time period messaging task (step 932) was not enabled, or
after initiation of the e-mail time period messaging task (step 934), a
determination is then made as to whether the aforesaid prescribed priority and
global messaging have been disabled for the present time period (step 940).
If yes, none of the prescribed priority and/or global messaging tasks are
initiated in regards to that e-mail message, and the messaging server awaits
the receipt of another e-mail message (step 202). If the prescribed priority
and/or global messaging tasks have not been disabled (step 940), then the e-mail
message is processed in accordance with priority and global messaging
tasks, as discussed above, starting at step 208 of Fig. 2.
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With the method for performing the priority, global and prescribed time
period messaging tasks being discussed above, exemplary operation of the
messaging server 12 regarding those messaging tasks will now be given in
reference to the prescribed time period messaging tasks of Fig. 10.
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It is to be understood that for the present example, the priority and
global messaging tasks as set forth in Fig. 7 are to be the prescribed priority
and global messaging parameters. With reference to Fig. 10, there is shown
two time periods being prescribed, each having unique time period messaging
tasks. In this example, a first time period is prescribed between 8:00 am, 12
December 1998 to 3:00 p.m., 12 December 1998, and a second time period is
prescribed between 3:00 p.m., 26 December 1998 to 11:00 a.m., 31
December 1998.
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Therefore, if an e-mail message intended for the subscriber is received
within the first time period (e.g. 1:30 pm, 12 December 1998) then that e-mail
is faxed to a facsimile device at telephone number: 123-456-7890, is e-mailed
to LNC31498@75phesant.com, and the prescribed priority and global
messaging tasks of Fig. 7 are also initiated. If an e-mail message is received
within the second time period (e.g., 6:00 a.m., 28 December 1998) then that
e-mail message is faxed to a facsimile device at telephone number: 321-111-6789,
is sent in audio format to telephone number: 000-111-2222, but in
regards to the prescribed priority and global messaging tasks of Fig. 7, they
are not initiated for this e-mail message since they were not enabled in this
time period. And of course, if an e-mail message is received at a time not
within either the prescribed first or second time period (e.g., 4:20 p.m. 17
December 1998) then neither of the messaging tasks of the first and second
prescribed time periods are initiated, but rather the prescribed messaging
tasks for the priority and global messaging tasks are initiated, as discussed
above.
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In summary, an internet based e-mail system has been described for
providing dynamic messaging capabilities for e-mail messages received in
regards to subscribers of the e-mail system. Although the present invention
has been described with emphasis on a particular embodiment, it should be
understood that the figures are for illustration of the exemplary embodiment of
the invention and should not be taken as limitations or thought to be the only
means of carrying out the invention. Further, it is contemplated that many
changes and modifications may be made to the invention without departing
from the scope and spirit of the invention as disclosed.